Title :
Reliable Automatic Calibration of a Marker-Based Position Tracking System
Author :
Claus, David ; Fitzgibbon, Andrew W.
Author_Institution :
Dept. of Eng. Sci., Univ. of Oxford, Oxford
Abstract :
This paper describes an accurate vision-based position tracking system which is significantly more robust and reliable over a wide range of environments than existing approaches. Based on fiducial detection for robustness, we show how a machine-learning approach allows the development of significantly more reliable fiducial detection than has previously been demonstrated. We calibrate fiducial positions using a structure-from-motion solver. We then show how nonlinear optimization of the camera position during tracking gives accuracy comparable with full bundle adjustment but at significantly reduced cost.
Keywords :
calibration; cameras; computer vision; learning (artificial intelligence); machine learning; marker-based position tracking system; nonlinear optimization; reliable automatic calibration; structure-from-motion solver; vision-based position tracking system; Augmented reality; Calibration; Cameras; Conferences; Cost function; Detectors; Layout; Reliability engineering; Robustness; Target tracking;
Conference_Titel :
Application of Computer Vision, 2005. WACV/MOTIONS '05 Volume 1. Seventh IEEE Workshops on
Conference_Location :
Breckenridge, CO
Print_ISBN :
0-7695-2271-8
DOI :
10.1109/ACVMOT.2005.101
